Metals (May 2022)

Temperature Field Evolution of Seeding during Directional Solidification of Single-Crystal Ni-Based Superalloy Castings

  • Songsong Hu,
  • Yunsong Zhao,
  • Weimin Bai,
  • Xinming Wang,
  • Fucheng Yin,
  • Wenchao Yang,
  • Lin Liu

DOI
https://doi.org/10.3390/met12050817
Journal volume & issue
Vol. 12, no. 5
p. 817

Abstract

Read online

By combined numerical simulations and unidirectional solidification experiments, the temperature field evolution of seeding for nickel-based single-crystal superalloys was studied. At the steady state, the position of the mushy zone in the seed moves down as the melt is poured into the mold. The holding time required for the temperature field of the seed segment to reach the steady state is less for seeds with casting than for those without casting. The holding time required to completely eliminate randomly oriented broken dendrites in the melt-back zone is much longer than that required for the temperature field to achieve a steady state. A short incubation stage is required before the temperature field evolution process; then, the migration rate of the isotherm gradually increases until it is the vicinity of the withdrawal rate. Finally, the effect of temperature field evolution on the formation of stray grains in seed segments is discussed.

Keywords